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1.
HIV-1疫苗研发是当前艾滋病研究的一大热点,其病毒表面包膜糖蛋白Env三聚体介导病毒与细胞融合,是HIV-1疫苗研究的重要靶点。因此,设计并在体外表达类天然Env三聚体对HIV-1疫苗的研发具有重要的意义。近年来,Env三聚体研究取得了显著的进展。SOSIP、NFL2P、UFO等抗原改造方法实现了类天然Env三聚体的体外表达,逐步解决了改造抗原产量低、结构不稳定等问题,且表达的Env三聚体抗原能在动物免疫中诱导机体产生较高的中和抗体水平。Env三聚体改造方法促进了HIV-1疫苗的研究。文中综述了SOSIP、NFL2P、UFO三种HIV-1 Env三聚体抗原改造方法,对比各个改造方法优缺点,并结合自身工作提出相关建议,为后续HIV-1抗原的相关设计提供指导。 相似文献
2.
Vincenzo Carbone Linley R. Schofield Amy K. Beattie Andrew J. Sutherland‐Smith Ron S. Ronimus 《Proteins》2013,81(11):2064-2070
Methenyltetrahydromethanopterin cyclohydrolase (Mch) is involved in the methanogenesis pathway of archaea as a C1 unit carrier where N5‐formyl‐tetrahydromethanopterin is converted to methenyl‐tetrahydromethanopterin. Mch from Methanobrevibacter ruminantium was cloned, purified, crystallized and its crystal structure solved at 1.37 Å resolution. A biologically active trimer, the enzyme is composed of two domains including an N‐terminal domain of six α‐helices encompassing a series of four β‐sheets and a predominantly anti‐parallel β–sheet at the C‐terminus flanked on one side by α‐helices. Sequence and structural alignments have helped identify residues involved in substrate binding and trimer formation. Proteins 2013; 81:2064–2070. © 2013 Wiley Periodicals, Inc. 相似文献
3.
Jiro Sekiya Wataru Kawasaki Tadahiko Kajiwara Akikazu Hatanaka 《Bioscience, biotechnology, and biochemistry》2013,77(8):1677-1678
d-Coronamic acid was deaminated by 1-aminocyclopropane-1-carboxylate (ACPC) deaminase to produce α-keto-n-caproic acid. This deaminase which was purified from Pseudomonas sp. ACP was active to only d-coronamic acid among its stereoisomers. l-Coronamic acid or dl-allocoronamic acid was inactive or negligibly poor as the substrate. In addition, both deamination of ACPC and d-coronamic acid were inhibited by l-alanine, not by d-isomer and the inhibition of ACPC deamination by l-alanine was competitive. On the basis of these results, stereoselectivity of the enzymatic deamination was discussed. 相似文献
4.
Stable structures and electronic properties of small urea clusters are investigated with ab initio calculations. We optimized the cluster geometries and calculated the vibrational frequencies with Hartree–Fock (HF), second-order Møller-Plesset perturbation theory (MP2), and Density Functional Theory (DFT) methods using different basis sets. The most stable dimer was found to consist of two nonplanar urea molecules which are connected by two N–-H...O bonds in a common plane, and the most stable trimer has a flat structure of complex and planar C2 form for each urea molecule, like in the crystal. The interaction energies were corrected for the basis set superposition error (BSSE) using the full Boys*ndash;Bernardi counterpoise correction scheme. The stability of different dimer and trimer structures, the features of formation of H-bonds and presented here are compared to the available experimental data. 相似文献
5.
Vainonen JP Vorobyeva NN Rodina EV Nazarova TI Kurilova SA Skoblov JS Avaeva SM 《Biochemistry. Biokhimii?a》2005,70(1):69-78
Soluble inorganic pyrophosphatase from Escherichia coli (E-PPase) is a hexamer forming under acidic conditions the active trimers. We have earlier found that the hydrolysis of a substrate (MgPP(i)) by the trimers as well as a mutant E-PPase Asp26Ala did not obey the Michaelis-Menten equation. To explain this fact, a model has been proposed implying the existence of, aside from an active site, an effector site that can bind PP(i) and thus accelerate MgPP(i) hydrolysis. In this paper, we demonstrate that the noncompetitive activation of MgPP(i) hydrolysis by metal-free PP(i) can also explain kinetic features of hexameric forms of both the native enzyme and the specially obtained mutant E-PPase with a substituted residue Glu145 in a flexible loop 144-149. Aside from PP(i), its non-hydrolyzable analog methylene diphosphonate can also occupy the effector site resulting in the acceleration of the substrate hydrolysis. Our finding that two moles of [32P]PP(i) can bind with each enzyme subunit is direct evidence for the existence of the effector site in the native E-PPase. 相似文献
6.
The poor immunogenicity of many tumors can be partly explained by the inefficiency of the MHC class I peptide presentation pathway. MHC-I-based single-chain trimers (SCT) represent a new class of molecules with the potential to overcome this limitation. We here evaluated the ability of SCT presenting a melanoma antigen peptide (TRP-2) to prime cytotoxic T lymphocyte (CTL) responses in mice when given as DNA vaccines via Gene Gun or when expressed by dendritic cells. The SCT was unable to induce detectable priming or significant anti-tumor activity of CTL using either vaccination strategy, whereas control SCT (with an exogenous peptide) primed strong responses. This study thus provides the first data related to the use of SCT in combination with DC and their application toward self antigens and suggest this potent technology, alone, is insufficient to overcome self tolerance. 相似文献
7.
Adiponectin, a macromolecular complex similar to the members of the C1q and other collagenous homologues, elicits diverse biological functions, including anti-diabetes, anti-atherosclerosis, anti-inflammation and anti-tumor activities, which have been directly linked to the high molecular weight (HMW) oligomeric structures formed by multiples of adiponectin trimers. Here, we report the 3-D reconstructions of isolated full-length, recombinant murine C39A adiponectin trimer and hexamer of wild-type trimers (the major HMW form) determined by single-particle analysis of electron micrographs. The pleiomorphic ensemble of collagen-like stretches of the trimers leads to a dynamic structure of HMW that partition into two major classes, the fan-shaped (class I) and bouquet-shaped (class II). In both of these, while the N termini cluster into a compact ellipsoid-shaped (∼ 60 Å × 45 Å × 45 Å) volume, the collagenous domains assume a variety of arrangements. The domains are splayed by up to ∼ 90° in class I, can form a close-packed, up to ∼ 100 × 40 Å cylindrical assembly in class II, which can house about half of the 66 putative collagen-like sequence and the rest, tethered to the trimeric globular domains at the C terminus, are highly dynamic. As a result, the globular domains elaborate a variety of arrangements, covering an area of up to ∼ 4.9 × 105 Å2 and up to ∼ 320 Å apart, some of which were captured in reconstructions of class II. Our reconstructions suggest that the N-terminal structured domain, agreeing approximately with the expected volume for the octadecameric assembly of the terminal 27 amino acids, is crucial to the formation of the functionally active HMW. On the other hand, conformational flexibility of the trimers at the C terminus can allow the HMW to access and cluster disparate target ligands binding to the globular domains, which may be necessary to activate cellular signaling leading to the remarkable functional diversity of adiponectin. 相似文献
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9.
Myungwoon Lee Hongwei Yao Byungsu Kwon Alan J. Waring Peter Ruchala Chandan Singh Mei Hong 《Journal of molecular biology》2018,430(5):695-709
Enveloped viruses enter cells by using their fusion proteins to merge the virus lipid envelope and the cell membrane. While crystal structures of the water-soluble ectodomains of many viral fusion proteins have been determined, the structure and assembly of the C-terminal transmembrane domain (TMD) remains poorly understood. Here we use solid-state NMR to determine the backbone conformation and oligomeric structure of the TMD of the parainfluenza virus 5 fusion protein. 13C chemical shifts indicate that the central leucine-rich segment of the TMD is α-helical in POPC/cholesterol membranes and POPE membranes, while the Ile- and Val-rich termini shift to the β-strand conformation in the POPE membrane. Importantly, lipid mixing assays indicate that the TMD is more fusogenic in the POPE membrane than in the POPC/cholesterol membrane, indicating that the β-strand conformation is important for fusion by inducing membrane curvature. Incorporation of para-fluorinated Phe at three positions of the α-helical core allowed us to measure interhelical distances using 19F spin diffusion NMR. The data indicate that, at peptide:lipid molar ratios of ~ 1:15, the TMD forms a trimeric helical bundle with inter-helical distances of 8.2–8.4 Å for L493F and L504F and 10.5 Å for L500F. These data provide high-resolution evidence of trimer formation of a viral fusion protein TMD in phospholipid bilayers, and indicate that the parainfluenza virus 5 fusion protein TMD harbors two functions: the central α-helical core is the trimerization unit of the protein, while the two termini are responsible for inducing membrane curvature by transitioning to a β-sheet conformation. 相似文献
10.
C-Glucosidic ellagitannin dimers were classified as types A-C according to a putative biogenetic oligomerization mode. They were characterized by different positions of the C-C bond between the phenolic acyl unit in one monomer and the benzylic C-1 of the open-chain glucose core in the other monomer. In recent years, four C-glucosidic tannins, melasquanins A-D (18-21), have been found in the leaves of Melaleuca squarrosa Donn ex Sm. (Myrtaceae). These are characterized as a dimer (melasquanin A) of a dimerization mode (type D), and trimers (melasquanins B-D) based on spectroscopic analysis including various two-dimensional nuclear magnetic resonance (2D NMR) experiments. Melasquanins B (19) and D (21) are C-glucosidic tannin trimers with a structure containing, non-repeating condensation modes, which was hitherto unknown. 相似文献